/* srpl-lease-time.c * * Copyright (c) 2023-2024 Apple Inc. All rights reserved. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * * This file contains the SRP server test runner. */ #include "srp.h" #include #include "srp-test-runner.h" #include "srp-api.h" #include "dns-msg.h" #include "ioloop.h" #include "srp-mdns-proxy.h" #include "test-api.h" #include "srp-proxy.h" #include "srp-mdns-proxy.h" #include "test-dnssd.h" #include "test.h" #include "srp-replication.h" #include "test-packet.h" #include "test-srpl.h" #include "srp-proxy.h" #include "dns-msg.h" #include "srp-tls.h" #define LEASE_TIME 15 static void test_srpl_lease_time_replication_evaluate(test_state_t *state, srp_server_t *server) { // Check for a DNSServiceRegosterRecord for both an AAAA record and a KEY record, we don't care which order. dns_service_event_t *regrec_1 = dns_service_find_first_register_record_event_by_name(server, TEST_HOST_NAME_REGISTERED); TEST_FAIL_CHECK(state, regrec_1 != NULL, "replication:found zero register record events"); regrec_1->consumed = true; dns_service_event_t *regrec_2 = dns_service_find_first_register_record_event_by_name(server, TEST_HOST_NAME_REGISTERED); TEST_FAIL_CHECK(state, regrec_1 != NULL, "found only one register record event"); regrec_2->consumed = true; TEST_FAIL_CHECK(state, ((regrec_1->rrtype == dns_rrtype_aaaa && regrec_2->rrtype == dns_rrtype_key) || (regrec_2->rrtype == dns_rrtype_aaaa && regrec_1->rrtype == dns_rrtype_key)), "didn't find a KEY and an AAAA record register event"); TEST_FAIL_CHECK(state, regrec_1->status == kDNSServiceErr_NoError, "DNSServiceRegisterRecord failed when it should have succeeded."); TEST_FAIL_CHECK(state, regrec_2->status == kDNSServiceErr_NoError, "DNSServiceRegisterRecord failed when it should have succeeded."); // Check for a DNSServiceRegister on the test service instance name and service type. dns_service_event_t *reg = dns_service_find_first_register_event_by_name_and_type(server, TEST_INSTANCE_NAME, TEST_SERVICE_TYPE); TEST_FAIL_CHECK(state, reg != NULL, "didn't find a register event"); TEST_FAIL_CHECK(state, reg->status == kDNSServiceErr_NoError, "DNSServiceRegister failed when it should have succeeded."); reg->consumed = true; dns_service_event_t *rrcb_1 = dns_service_find_callback_for_registration(server, regrec_1); TEST_FAIL_CHECK(state, rrcb_1 != NULL, "no register record callback for first register record"); TEST_FAIL_CHECK(state, rrcb_1->status == kDNSServiceErr_NoError, "DNSServiceRegisterRecord callback got an error when it should not have."); rrcb_1->consumed = true; dns_service_event_t *rrcb_2 = dns_service_find_callback_for_registration(server, regrec_2); TEST_FAIL_CHECK(state, rrcb_2 != NULL, "no register record callback for second register record"); TEST_FAIL_CHECK(state, rrcb_2->status == kDNSServiceErr_NoError, "DNSServiceRegisterRecord callback got an error when it should not have."); rrcb_2->consumed = true; dns_service_event_t *regcb = dns_service_find_callback_for_registration(server, reg); TEST_FAIL_CHECK(state, regcb != NULL, "no register callback for registered service"); TEST_FAIL_CHECK(state, regcb->status == kDNSServiceErr_NoError, "DNSServiceRegister callback got an error when it should not have."); regcb->consumed = true; // We should now have consumed all of the events. TEST_FAIL_CHECK(state, dns_service_dump_unexpected_events(state, server), "unexpected dnssd transactions remain"); // If so, the test has passed. TEST_PASSED(state); } static void test_srpl_lease_time_replication_finished(srpl_connection_t *connection) { test_state_t *state = connection->test_state; srp_server_t *server = connection->instance->domain->server_state; INFO("reach test_srpl_lease_time_replication_finished"); // Wait for another LEASE_TIME to verify that the registration has the updated lease time // and does not expire immediately. dispatch_after(dispatch_time(DISPATCH_TIME_NOW, NSEC_PER_SEC * LEASE_TIME), dispatch_get_main_queue(), ^{ test_srpl_lease_time_replication_evaluate(state, server); }); } static void test_srpl_lease_time_primary_evaluate(test_state_t *state) { // Check for a DNSServiceRegosterRecord for both an AAAA record and a KEY record, we don't care which order. dns_service_event_t *regrec_1 = dns_service_find_first_register_record_event_by_name(state->primary, TEST_HOST_NAME_REGISTERED); TEST_FAIL_CHECK(state, regrec_1 != NULL, "found zero register record events"); regrec_1->consumed = true; dns_service_event_t *regrec_2 = dns_service_find_first_register_record_event_by_name(state->primary, TEST_HOST_NAME_REGISTERED); TEST_FAIL_CHECK(state, regrec_1 != NULL, "found only one register record event"); regrec_2->consumed = true; TEST_FAIL_CHECK(state, ((regrec_1->rrtype == dns_rrtype_aaaa && regrec_2->rrtype == dns_rrtype_key) || (regrec_2->rrtype == dns_rrtype_aaaa && regrec_1->rrtype == dns_rrtype_key)), "didn't find a KEY and an AAAA record register event"); TEST_FAIL_CHECK(state, regrec_1->status == kDNSServiceErr_NoError, "DNSServiceRegisterRecord failed when it should have succeeded."); TEST_FAIL_CHECK(state, regrec_2->status == kDNSServiceErr_NoError, "DNSServiceRegisterRecord failed when it should have succeeded."); // Check for a DNSServiceRegister on the test service instance name and service type. dns_service_event_t *reg = dns_service_find_first_register_event_by_name_and_type(state->primary, TEST_INSTANCE_NAME, TEST_SERVICE_TYPE); TEST_FAIL_CHECK(state, reg != NULL, "didn't find a register event"); TEST_FAIL_CHECK(state, reg->status == kDNSServiceErr_NoError, "DNSServiceRegister failed when it should have succeeded."); reg->consumed = true; dns_service_event_t *rrcb_1 = dns_service_find_callback_for_registration(state->primary, regrec_1); TEST_FAIL_CHECK(state, rrcb_1 != NULL, "no register record callback for first register record"); TEST_FAIL_CHECK(state, rrcb_1->status == kDNSServiceErr_NoError, "DNSServiceRegisterRecord callback got an error when it should not have."); rrcb_1->consumed = true; dns_service_event_t *rrcb_2 = dns_service_find_callback_for_registration(state->primary, regrec_2); TEST_FAIL_CHECK(state, rrcb_2 != NULL, "no register record callback for second register record"); TEST_FAIL_CHECK(state, rrcb_2->status == kDNSServiceErr_NoError, "DNSServiceRegisterRecord callback got an error when it should not have."); rrcb_2->consumed = true; dns_service_event_t *regcb = dns_service_find_callback_for_registration(state->primary, reg); TEST_FAIL_CHECK(state, regcb != NULL, "no register callback for registered service"); TEST_FAIL_CHECK(state, regcb->status == kDNSServiceErr_NoError, "DNSServiceRegister callback got an error when it should not have."); regcb->consumed = true; // We should now have consumed all of the events. TEST_FAIL_CHECK(state, dns_service_dump_unexpected_events(state, state->primary), "unexpected dnssd transactions remain"); } static void test_srpl_lease_time_callback(DNSServiceRef sdref, DNSServiceFlags UNUSED flags, DNSServiceErrorType errorCode, const char *name, const char *regtype, const char *UNUSED domain, void *context) { srp_server_t *server_state = context; test_state_t *state = server_state->test_state; static bool initial = true; INFO("Register Reply for %s . %s: %d", name, regtype, errorCode); INFO("state = %p", state); if (errorCode != kDNSServiceErr_NoError) { TEST_FAIL_STATUS(state, "registration failed: srp_client_register callback returned %d", errorCode); } // We only check the registration on the primary once and start the replication then. if (initial) { // Allow time for the mDNS registration to finish dispatch_after(dispatch_time(DISPATCH_TIME_NOW, NSEC_PER_SEC * 2), dispatch_get_main_queue(), ^{ // Verify the registration on the primary server. test_srpl_lease_time_primary_evaluate(state); // Change the lease time to 3600 seconds srp_set_lease_times(3600, 3600); // Wait for client to renew. dispatch_after(dispatch_time(DISPATCH_TIME_NOW, NSEC_PER_SEC * LEASE_TIME), dispatch_get_main_queue(), ^{ // After client renews, start another replication peer. srp_server_t *second = test_srpl_add_server(state); // create an outgoing connection from second to primary srpl_connection_t *connection = test_srpl_connection_create(state, state->primary, second); connection->srpl_advertise_finished_callback = test_srpl_lease_time_replication_finished; // Start replication. test_srpl_start_replication(state->primary, 12345); srp_client_ref_deallocate(sdref); srp_network_state_stable(NULL); // Discontinue SRP client }); }); initial = false; } } static void test_srpl_lease_time_ready(void *context, uint16_t UNUSED port) { srp_server_t *state = context; int ret = srp_host_init(state); srp_set_lease_times(LEASE_TIME, LEASE_TIME); TEST_FAIL_CHECK(state->test_state, ret == kDNSServiceErr_NoError, "srp_host_init failed"); DNSServiceRef ref; INFO("SRPL lease time test"); char txt_buf[128]; TXTRecordRef txt; TXTRecordCreate(&txt, sizeof(txt_buf), txt_buf); TXTRecordSetValue(&txt, "foo", 1, "1"); TXTRecordSetValue(&txt, "bar", 3, "1.1"); const char *txt_data = TXTRecordGetBytesPtr(&txt); int txt_len = TXTRecordGetLength(&txt); // Create a DNSSD client ret = srp_client_register(&ref, 0 /* flags */, 0 /* interfaceIndex */, TEST_INSTANCE_NAME /* name */, TEST_SERVICE_TYPE /* regType */, NULL /* domain */, TEST_HOST_NAME /* host */, 1234, txt_len, txt_data, test_srpl_lease_time_callback, state); TEST_FAIL_CHECK_STATUS(state->test_state, ret == kDNSServiceErr_NoError, "srp_client_register returned %d", ret); srp_test_network_localhost_start(state->test_state); } void test_srpl_lease_time(test_state_t *next_state) { extern srp_server_t *srp_servers; const char *description = " The goal of this test is to validate that lease time is processed correctly for a renewal.\n" " The test first sets the lease time to 15 seconds and let the client register a host and\n" " service with a srp server. It then updates the lease time on the client to 3600 seconds\n" " and wait for the client to renew. It then starts a second SRP replication server and wait\n" " for the synchronization to complete. It checks that the lease on the replicated peer does\n" " not expire immediately."; test_state_t *state = test_state_create(srp_servers, "Replication lease time test", NULL, description, NULL); srp_proxy_init("local"); srp_test_enable_stub_router(state, srp_servers); state->primary->min_lease_time = LEASE_TIME; state->srp_listener = srp_proxy_listen(NULL, 0, NULL, test_srpl_lease_time_ready, NULL, NULL, NULL, state->primary); TEST_FAIL_CHECK(state, state->srp_listener != NULL, "listener create failed"); state->next = next_state; // Test should not take longer than 3*LEASE_TIME. srp_test_state_add_timeout(state, 3 * LEASE_TIME); } // Local Variables: // mode: C // tab-width: 4 // c-file-style: "bsd" // c-basic-offset: 4 // fill-column: 108 // indent-tabs-mode: nil // End: